Animal nutrition system and method

ABSTRACT

An animal nutrition system and method for effectively monitoring and managing animal nutrition. The animal nutrition system and method generally includes a food container storing a volume of pet food, a package identification chip attached to the food container, a food serving appliance configured to removably receive the food container, and a scale positioned within the food serving appliance to weigh the food container periodically to generate weight data. The food serving appliance includes a chip reader that communicates with the package identification chip to receive food container data from the package identification chip to acquire data related to the food package.

CROSS REFERENCE TO RELATED APPLICATIONS

The present application is a continuation of U.S. application Ser. No.15/901,870 filed on Feb. 21, 2018 which issues as U.S. Pat. No.10,506,798 on Dec. 17, 2019, which claims priority to U.S. ProvisionalApplication No. 62/461,283 filed Feb. 21, 2017. Each of theaforementioned patent applications, and any applications relatedthereto, is herein incorporated by reference in their entirety.

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT

Not applicable to this application.

BACKGROUND Field

Example embodiments in general relate to an animal nutrition system andmethod for effectively monitoring and managing animal nutrition.

Related Art

Any discussion of the related art throughout the specification should inno way be considered as an admission that such related art is widelyknown or forms part of common general knowledge in the field.

More than half of companion dogs and cats that live in the 80 million UShouseholds are obese or overweight. Obese pets die up to 2½ yearsearlier, and can cost owners up to $7,000 more over the pet's lifetimewhen compared to properly nourished pets.

Pet health is closely tied to daily food and water consumption andactivity levels. Unfortunately, most pet owners lack the knowledge,skills or aptitude to manage their pet's total nutrition and health. Buteven knowledgeable pet owners lack a convenient means to persistentlymonitor and manage their pet's daily health throughout the pet'slifetime as evidenced by persistently rising pet obesity rates.Consequently, when a health problem does occur, an owner is unable toprovide the veterinarian with a reliable first diagnostic tool: aprecise food, water and activity record.

The poor state of the pet nutrition management can be summarized as:

-   -   a) Pet food is typically packaged in large “bulk” bags or boxes        that contain enough food for many portions or servings.        Repeatedly opening poorly sealed pet food bags expose food to        air which immediately starts the oxidation process that destroys        nutrients.    -   b) Pet food manufacturers recommend roughly calculated meal        portion measurements for animals they have never examined,        heavily based on an owner's best guess of their pet's weight. At        best, these recommendations are unreliable for managing pet        nutrition, as evidenced by pet obesity rates.    -   c) Automated feeders fail to support nutrition management; they        rely on food manufacturer's portion recommendations (which        fail), and inaccurately assume a consistent weight or volume of        dispensed food, and do not directly account for nutrient content        (calories of same food volume can vary over 100 percent between        two food brands).    -   d) Emerging “smart bowl” products record the amount of food        consumed as a retrospective data point, but fail to        prospectively correct forward-looking nutritional requirements.        They fail to gather daily water consumption volume, data which        is critical to comprehensive pet nutrition and health        monitoring.

SUMMARY

The various embodiments disclose various systems and methods of managingtotal pet nutrition, and the first solution that encompasses the broadindustry segments pet food manufacturing, in-home IoT connected feedingdevices, pet health monitoring, and historical pet data output forveterinary care.

The various embodiments may include food manufacturing methods and foodpackaging products, and feeding devices in communication with a wirelessnetwork providing for: the precise portioning and packaging of completeand balanced meals individualized for each unique pet; the collection,recording and analysis of retrospective data related to total daily foodand water consumed by the pet from all sources; the perpetual dataanalysis to identify anomalies and correlate anomalies to potentialhealth problems; a method of communicating the normal and anomalous datato pet owners and/or veterinarians; and for prospective modification ofpet nutritional requirements and adjustment to the meal portioningthroughout the lifetime of each uniquely identified pet.

Therefore, pet owners desiring to save thousands in pet hospital billsby raising healthier pets will immediately appreciate the economic andconvenience value of a food delivery system of the various embodimentsherein that first provides the most accurately portioned, complete andbalanced meals individualized for their pets, and a system thatperpetually monitors, records and analyzes all daily food and waterconsumption and pet activity for the life of the pet.

It is important to have access to the pet's complete and detailedlifetime nutritional, caloric and water consumption records as a firstgo-to diagnostic tool when pet health problems do occur.

There has thus been outlined, rather broadly, some of the embodiments ofthe animal nutrition system and method in order that the detaileddescription thereof may be better understood, and in order that thepresent contribution to the art may be better appreciated. There areadditional embodiments of the animal nutrition system and method thatwill be described hereinafter and that will form the subject matter ofthe claims appended hereto. In this respect, before explaining at leastone embodiment of the animal nutrition system and method in detail, itis to be understood that the animal nutrition system and method is notlimited in its application to the details of construction or to thearrangements of the components set forth in the following description orillustrated in the drawings. The animal nutrition system and method iscapable of other embodiments and of being practiced and carried out invarious ways. Also, it is to be understood that the phraseology andterminology employed herein are for the purpose of the description andshould not be regarded as limiting.

BRIEF DESCRIPTION OF THE DRAWINGS

Example embodiments will become more fully understood from the detaileddescription given herein below and the accompanying drawings, whereinlike elements are represented by like reference characters, which aregiven by way of illustration only and thus are not limitative of theexample embodiments herein.

FIG. 1 is an exploded perspective view an animal nutrition system andmethod in accordance with an example embodiment.

FIG. 2 is an exemplary block diagram illustrating major components of apet nutrition and health management system in accordance with an exampleembodiment.

FIG. 3 is an exemplary diagram illustrating an isometric view of asingle portion disposable pet food package in accordance with an exampleembodiment.

FIG. 4A is an exemplary diagram illustrating a top view of a food trayof a single portion pet food package filled with food in accordance withan example embodiment.

FIG. 4B is an exemplary diagram illustrating a top view of a water trayof a single portion pet food package in accordance with an exampleembodiment.

FIG. 4C is an exemplary diagram illustrating a side view of a nestablefood and water tray of a single portion pet food package in accordancewith an example embodiment.

FIG. 4D is an exemplary diagram illustrating a chart listing partialinformation recorded on a readable chip on a pet food package inaccordance with an example embodiment.

FIG. 5 is an exemplary diagram illustrating isometric view of a singleportion pet food package and wireless food serving appliance inaccordance with an example embodiment.

FIG. 6 is an exemplary diagram illustrating a flow chart of a preferredsequence of managing a pet's nutrition and health in accordance with anexample embodiment.

FIG. 7 is an exemplary diagram illustrating a chart of one set ofprocesses and correspondingly triggered mathematical computationsrepresentative of software algorithms used to manage a pet's nutritionand health in accordance with an example embodiment.

FIG. 8 is an exemplary diagram illustrating a block diagram showingsources of data in a pet nutrition and health management system inaccordance with an example embodiment.

FIG. 9A is an exemplary diagram illustrating an isometric view of onevariation of a wireless pet feeding system in accordance with an exampleembodiment.

FIG. 9B is an exemplary diagram illustrating a chart listing partialinformation recorded on a wireless pet feeding appliance in accordancewith an example embodiment.

FIG. 10 is an exemplary block diagram illustrating major components ofone variation of a pet nutrition and health management system inaccordance with an example embodiment.

FIG. 11 is an exemplary diagram illustrating a flow chart of a preferredsequence of managing a pet's nutrition and health in accordance with anexample embodiment.

FIG. 12 is an exemplary diagram illustrating a chart of one set ofprocesses and triggered mathematical computations representative ofsoftware algorithms used to manage a pet's nutrition and health inaccordance with an example embodiment.

DETAILED DESCRIPTION

Feeding System Using Single-Portion Disposable Food Packaging

FIG. 1 is an exemplary diagram illustrating an isometric view of awireless pet feeding system comprising a wireless food serving appliance200 and interchangeable food and water containers. The appliance maycommunicate with various wireless devices via a Bluetooth 201connection, WIFI, or other low-power wireless communications protocols.

The wireless food serving appliance provides for a communication modulenot shown, but which reads, stores and transmits data provided onvarious food and water package identification chips 108, 109 that willbe more fully described below.

In the various embodiments herein, various disposable food containers100 are shown with a food compartment 106 having been prefilled with petfood 110 by the food manufacturer, a meal water compartment 107, thefood and water compartments being separated by a compartment separator105. As can be seen, two variations of food and water compartmentconfigurations are show, but are not meant to be limiting. Anyconfiguration that provides for a food and water section may be used solong as the food compartment is of a sufficient volume to hold one mealportion of food.

Although it is preferable to a pet to have water available during theconsumption of food, replacing the food container with a water containermay suffice in some instances. Therefore, a manufactured, pre-filledfood container without a water compartment may be used in place of themulti-compartment food container provided that the food container isreplaced by a water container immediately after the pet consumes thesingle portion of food in the food container.

Those skilled in the art will immediately appreciate the pet nutritionand health advantages of pet foods packaged in single-serving, completeportion food containers compared to traditional pet food packaging thatcontains more than one meal portion, including:

a) the precise measurement of a complete and balanced portion that ismost appropriate for each individualized pet prevents over or underfeeding the pet;

b) limiting exposure to air for the few minutes before feeding the petprevents food quality breakdown. It is well known that oxidation of foodin a bulk package begins immediately after the bag is opened and exposedto air. Even re-closing the bag for storage after removing one mealportion does not prevent oxygen from breaking down food nutrients thatcontinues to lower food quality until the bulk bag is emptied;

c) unmatched hygiene. Since a new food container is used as the foodbowl for each meal, there are no residual food particles, bacteria, moldor other pathogens that are typically found on food bowls that are notcleaned immediately after the pet finishes its meal.

In the drawing, a manufacturer's food identification chip 108 is shownaffixed to the versions of the disposable single-serving foodcontainers, the chip being a low power communication device such asBluetooth, Ant, ZigBee, Near Field Communication (NFC), or employing anyother low power wireless protocol for the purpose of transmitting to aproximate wireless device and/or reader certain data related to the foodcontainer.

In the various embodiments herein, certain data related to the knownfood content is preferably provided for on the chip, the data being: theportion weight of the food; the moisture content expressed in a specificmeasure of water or as a percentage of food weight; energy content ofthe food expressed in kcal; the net weight of the food absent water; andthe tare weight of the food container without a cover.

Other data may be included on and transmittable by the chipcommunication module including but not limited to: place and date ofproduction; lot number; use-by date; UPC number; gross weight of thefood container and related packaging; ingredient list and amounts;nutritional value of food components; and source of food components.

Further, the chip may contain a unique identification code thatcorrelates to a specific animal identification, for instance, “a packageof beef flavored, non-grain pet food containing 458 kcal that isintended to be consumed by customer's pet ID Number XXXX”. In multi-pethouseholds, or in households where a particular pet had been put on amedically restricted diet by a veterinarian, it is preferable that priorto, or at the time of feeding, the particular food package is verifiedto be consistent with the food portion size and ingredients of theintended animal. Therefore, a direct or indirect communication linkbetween the pet and the food upon a network authenticates the matchbetween the intended pet and the present food container.

In the event that an inappropriate food container is being presented toa pet for consumption, various notifications to the pet owner will beactuated preferably including one of any of a visual indicator such as aflashing light on the appliance, a text message to a smartphone, andaudible alarm.

Optionally, a separately manufactured and sealed food enhancing flavortopper 111 may be provided within the sealed single portion foodcontainer 100, the topper being a well known product type that is openedand poured onto food to increase palatability. If an optional flavortopper is incorporated into the food container, then the food containeridentification chip 108 just described will also include data regardingthe topper including the total weight, tare weight, net weight of theliquid topper, water content in liquid measure, and other relevantmanufacturing information.

The system of the various embodiments herein that authenticates thepet-to-food match is further useful in the event of a food recall forvarious reasons, the recall notice applied to certain data on variouschips affixed to food containers triggering an alarm warningnotification as just described.

In the drawing, a large disposable water container 101 is shown in adocked position within the serving appliance 200, and water containercomprising a large water compartment 112 and a water containeridentification chip 109, the chip containing at least the tare weight ofthe container.

For convenience of removing a food or water container from the dockedposition in the serving appliance 200, one or more appropriatelypositioned container removal finger slots 201 are provided. Although notshown, projecting features may be formed into the food and/or watercontainer perimeter top rim that allows for easy grasping for removal.

In the present configuration just described, the food container 100 andwater container 101 are intended for disposal after use.

FIG. 2 is an exemplary block diagram illustrating major components of apet nutrition and health management system. In the various embodimentsherein, a plurality of products and technologies interact as a means topreferably monitor, collect, process, send, store and analyze datarelated to pet food and water consumption.

In the drawing a single portion food package is manufactured 300 at apet food manufacturing facility, the pet food nutritional and caloriccontent being of certain measurements so as to constitute one mealportion preferably for one specifically identified animal or a pluralityof animals of substantially similar physiological characteristics.

Prior to manufacturing, the food manufacturer 300 received petcharacteristics and corresponding daily food requirements from anetworked server 302, the server being further networked to amanufactured wireless food serving appliance 301 preferably located inthe pet's domicile, at least one networked wireless device 303 operableby the pet's owner or custodian and/or located in the pet's domicile,pet wearable devices such as a pet collar 305 providing for datacollection related to activity and water consumption, and a portalproviding third party data access 304, preferably via a WEB application,for querying and/or retrieving pet history information by the pet'sowner or veterinarian.

In some instances it may be preferable for the serving appliance and petwearable devices 301, 305 to be in direct communication with thenetwork, the devices having unique identifications that correlate to theunique identification of the pet for which they are collecting data. Onthe other hand, it may be preferable for the serving appliance and/orpet wearable devices 301, 305 to be in direct communication with a petowner's wireless device, for instance, a smartphone, that received datafrom various in-home and pet wearable devices, federated the data, andfurther communicates the data to the network. The various embodimentsherein is not intended to limit access protocol or sequence of anydevice upon the network so long as all of the preferred data related tothe pet, its activity, food and water consumption are communicated,preferably at approximately 24 hour intervals, to the pet's personallyidentifiable record stored on the server.

In-home wireless devices 303 preferably comprise interactivecommunication devices such as smartphones or tablets, but may alsoinclude auxiliary data collection devices such as a wireless floor scalefor weighing the pet, additional metered water sources, or metered waterbottles.

FIG. 3 is an exemplary diagram illustrating an isometric view of asingle portion pet food package. In one variation of a single portionpackage, a disposable prefilled food container 100 is nested within adisposable water container 101 of interior dimensions larger than theexterior dimensions of the food container to provide for nesting. In thedrawing, an opening pull tab 105 is shown on the sealed food containerclosure 104 as one convenient method of opening the food container forserving.

A water container identification chip 109 is shown affixed to theexterior of a water container 101, and as previously described but notshown, a food container identification chip is affixed to the foodcontainer 100. It should be noted that the location or method ofadjoining the container chips with the containers is not meant to belimiting, and the chips may be adhesively affixed, integrallyincorporated into the container material, and may be preferably locatedon the exterior or interior of the containers.

A single portion outer package 102 is shown of a traditional stock paperdesign of appropriate weight as one optional means of maintaining thenesting of the food and water containers just described, and to furtherprovide a more convenient, rectilinear outer package that preferablypacks efficiently into a larger box for shipping multiple meals in asingle outer package. However, the nested food and water containers maybe shrink wrapped and sealed for more durable air-tight closure of thefood package. The body of art related to food packaging andover-packaging is broad, and the various embodiments herein does notlimit the specific method of packaging and over-packing to the food andwater container packaging as described herein.

It is preferable that a pet owner is able to easily identify the correctfood for their pet or pets. In a multi-pet household with pets ofdifferent sizes, ages, activity levels and such, it is important to feedthe pet-specific portion to the correct pet.

The various embodiments may include, but do not require, the uniquelyidentifying each pet portion by applying a customer label 103 on thesingle portion outer package 102 and/or on the exterior of the nestedfood and water packages 101, 102.

Further, a food container identification chip 109 may provide data to asmartphone or to the wireless food serving device that identified theindividual pet for which the food is intended.

FIG. 4A is an exemplary diagram illustrating a top view of a food trayof a single serve pet food container 100. In the drawing, a foodcompartment 106 and a meal water compartment 107 are shown on opposedsides of a compartment separator 105. During the manufacturing process,the food compartment 106 has been filled with the precise amount of food110 required for a single portion for the intended pet.

Those skilled in the art understand that a pet that rapidly eats foodmay experience a life-threatening stomach condition commonly referred toas “bloat”. One method of reducing the probability of a pet experiencingbloat is to slow down the rate of food consumption, and provideimmediately available water to drink during mealtime. In the drawing, aplurality of interior castellations 108 project upward from the bottomof the food compartment 106, the size, number and arrangement of thecastellations being a function of the size and type of food filled intothe compartment. Castellations require the pet to work around structuralimpediments to reach the full portion of their food, and in doing so,inherently slow the rate of consumption.

FIG. 4B is an exemplary diagram illustrating a top view of a disposablewater container 101 of a single serve pet food package, the containercomprising the largest possible water compartment 112, preferably of adimension substantially large enough for the disposable food containerFIG. 4A to fit within for nesting.

FIG. 4C is an exemplary diagram illustrating a side view of a nestablefood and water tray of a single serve pet food package. Morespecifically, a disposable water container 101 as just described isshown positioned beneath a disposable food container 100 into which foodis filled prior to sealing with a food container closure 104. Aspreviously described, food container and water container identificationchips 108, 109 are incorporated into the food and water containersrespectively, the chips containing transmittable data related to thecontainers.

FIG. 4D is an exemplary diagram illustrating a chart listing partialinformation recorded on a readable chip on a pet food package. A foodchip data chart 306 lists information related to a disposable singleportion food package preferably listing the tare weight of the foodcontainer, tare weight of the water container, the net weight andcharacteristics of a topper food if included in the package, the grossweight of the food filled into the food container, the net weight orpercentage of the solid food, and the water volume in the food expressedin volume and/or weight, or a moisture percentage of the food grossweight.

These data are unique to the various embodiments herein and providereliable baseline data, a component of the total data used to computeeach pet's actual daily food and water consumption.

FIG. 5 is an exemplary diagram illustrating isometric view of a singleserve pet food package and wireless food serving appliance. The drawingshows a disposable food container 100 with food distributed in aplurality of food compartments, and water 118 shown partially fillingthe water compartment, the single portion food package thereby being ina condition ready to server to the pet.

A food container docking berth 204, shown as a cavity structure of adimensional width, length and depth substantially sufficient toaccommodate the insertion and secured retention of a food container withfood and water.

A single weighing mechanism, such as a scale 205 is shown in such aposition as to provide for weighing of a disposable container filledonly with food, a disposable container filled only with water, or adisposable container filled with food and water. The type of scale isnot meant to be limiting, and any type of scale providing for highresolution digital output may be used. The scale is in communicationwith an electronics module 203 partially visible on the underside of theappliance because part of the wall section 209 of the appliance has beencut away to allow for viewing the module, the module providing for,among other functions, the collection of weight data, time of datacollection, storage of the data, receiving data from food and watercontainer identification chip reader 206, and power source.

FIG. 6 is an exemplary diagram illustrating a flow chart of a preferredsequence of managing a pet's nutrition and health. A pet owner puts anew pet on a nutrition program 307 by first examining and entering intoa server a new pet profile 308 using common physiologicalcharacteristics. Based on the owner-input data, the server analysisdetermines a proper meal portion 309.

A food manufacturer produces a single portion food package 310consistent with the preferred portion and nutritional requirements ofthe pet. Upon receiving delivery of the single portion food package anowner opens the manufactured food package, adds water into the watercompartment, and places the meal package into a wireless feedingappliance 312. The appliance collects information contained on the foodpackage identification chip as previously described, and begins tocollect weight data from the scale and electronics module of theappliance 313.

By communicating directly with a server on the network, or indirectlyvia a mobile wireless device, the appliance preferably transmits all ofthe collected data just described to the individual pet's profile recordon the server 314.

It is well known that a pet consumes food and water throughout the dayfrom sources other than the meal-time pet food appliance, and other fromtraditional food and water bowls. For instance, a pet may receivemid-day treats, and drink water from a swimming pool. These data must beconsidered within the scope of a total nutrition monitoring program.

It should be clearly noted that absent the collection of these data, anynutrition or health monitoring program fails to collect, analyze ordeliver a reliable pet health nutrition profile.

In the drawing, food and water consumption data from non-metered,non-monitored sources is collected using various wireless devices 315,such wireless devices preferably including a pet wearable device thatdirectly or indirectly records water consumption, and mobile deviceswith prompts to a pet owner to enter food given to the pet outside ofmealtime. These data are transmitted to a server on the network, and arecorrelated with a unique pet identification. These data are added to thepet's personalized log 316.

The pet's nutrition and health records may be accessed by a pet owner orveterinarian 317, preferably via push notifications to a wirelessdevice, or via a WEB portal.

An analytics engine on the network server analyzed daily pet intakedata, performs a comparative analysis of the current data to bothhistorical data, and more importantly future predicted data, andautomatically makes any food portion or nutrition adjustments to thepet's daily portions 318, and communicates that information back to theserver accessible to a food manufacturer. The food manufacturer willappropriately modify the portion package 309 for delivery to the ownerfor feeding to the pet.

FIG. 7 is an exemplary diagram illustrating a chart of one set ofprocesses and correspondingly triggered mathematical computationsrepresentative of software algorithms used to manage a pet's nutritionand health.

It should first be noted that one preferred element of the variousembodiments herein is the use of the tare weight of a food container, awater container, and/or a combined food and water container.Commercially valuable benefits of tare weight data provide for moreprecise pet food and water consumption measurement, and substantiallyreduce the production cost of food and water measurement devices,thereby establishing a competitive advancement over older, traditionalseparate pet food and water measurement systems.

Now then, in the drawing, a representative example is provided toillustrate one algorithmic process of obtaining food and water weightsduring meal preparation 400.

Prior to a pet owner initiating any action related to feeding a pet asingle portion meal, the tare weight food and water containers, and theaccurate food weight are known as a component of the manufacturingprocess.

Without articulating every line item of the mathematical process shown,those skilled in the art will appreciate that if all weights are knownin advance, with the exception of the weight of water that is added bythe homeowner at pet mealtime, that the current weight less knownweights will equal the precise measure of the water that has been addedto the feeding bowl.

Therefore, the after-meal 401 analysis of the food and water actuallyconsumed during the mealtime are equally calculable, incorporating intothe calculus the originally known tare weights of any packaging that wasincorporated into any after-meal weight measurements.

It must be mentioned that the moisture content of pet food shall be acalculable component to determining total daily water consumption by thepet. It is well known that canned pet food contains in excess of eightypercent water, while dry kibble food contains approximately eightpercent water. Any chance in a pet's diet between canned and kibble foodcan dramatically change the amount of water being consumed. Sincechanges in water consumption by a pet, whether an increase or decrease,correlate positively as indicators of underlying medical problems,neglecting to calculate accurate water consumption carries the highprobability that symptoms of medical problems can be masked untilsignificant damage to the pet's health has occurred.

The first pet health monitoring system provides for analysis andrecording of food moisture content in addition to clear waterconsumption can now be fully appreciated.

During any given day, a pet may consume substantially all of the waterin a water bowl, and the water bowl may need to be refilled. Using thealready known tare weight of a water container, and the measure of thestarting water being known, a formula 402 may provide for the cumulativemeasure of water added by means of a sensor that recognizes an increasein weight, instantly recording the weight at the moment additional wateris poured into the bowl, and storing that data to be added to the latercalculations of total daily water consumption.

At a subsequent mealtime, preferably the following day, a new singleportion food package will need to be prepared and served as justdescribed above. At the moment that the old container or containers areremoved from the wireless food serving appliance 403, the last availableending weight is recorded and transmitted directly or indirectly to theserver as the final integer needed to complete the total calculation offood and water consumed from the wireless food and water servingappliance, the data thereby being logged into the pet's historicalhealth and nutrition profile.

FIG. 8 is an exemplary diagram illustrating a block diagram showingsources of data in a pet nutrition and health management system.

As was previously mentioned, certain data related to food, moisture andtare weights are known, having been determined at the time the pet foodwas manufactured. The food ingredients and tare weights of amanufactured food package are recorded on a readable food packageidentification chip as described herein, the readable information beingreceived by a wireless food serving appliance at the time that a foodpackage is inserted into the appliance for serving to a pet.

Therefore, at the start of any daily analysis of pet food and waterconsumption, certain data is passively added to a pet's record on aserver as nutritional data input 320, the word “passive” meaning that noactive measurement by a pet food or water serving device is required. Ascan be readily seen in the drawing, a substantial amount of datainitially recorded on the server before a pet is even proximate to theserved meal. Active data collection preferably includes actions requiredby a pet owner such as the inputting of any treats given to the petduring the day outside of mealtime, and not included in the content ofthe food delivered via the food serving appliance. Further, thenutritional content of the treats will need to be input into the serverone-time so that cumulative treat nutrition and moisture content can beincluded in daily food and water consumption computations.

Active measurements 321 preferably continue between the start of onemealtime, and the start of a subsequent mealtime, thereby providing acontinual daily record of all food and water consumed by the pet withina repeatable time period. Active measurements by the various embodimentsherein as shown in the drawing include all measurements taken by thewireless food serving appliance, as well as water consumption and energyexpenditure in kcal units that are transmitted directly or indirectlyfrom a pet wearable device to a network server, and relevant datareceived from any other wirelessly connected measurement device on thenetwork.

One objective of the various embodiments herein therefore is to createand maintain daily food, water, nutrition and general health records fora pet, for every day throughout the pet's life time. A 24 hour schedule322 is a reasonable time period for which to track daily pet data, theimportant elements of the daily data including but not limited to dailyfood and water consumed, and the underlying details thereof, and forpets with a wearable device for measuring activity, the total energyoutput of the pet during each recording period.

Feeding System with Reusable Trays and Multi-portion Food Container

In some instances, it may be preferable to fill water and food intoreusable food, food and water, or water containers usable in a wirelessfood serving appliance, the preferences being based on many factors thatmay include the temporary feeding of a veterinarian specified medicalfood not available in a manufactured single portion food package.Another non-limiting factor supporting the use of a variation of awireless food serving appliance would be the use of food from packagesthat contained more than a single portion of food or, in other words,food that would be poured into the food container for a meal.

FIG. 9A is an exemplary diagram illustrating an isometric view of onevariation of a wireless pet feeding system comprising a wireless petfeeding appliance 200 substantially as previously described including acontainer removal finger slot 201, a Bluetooth connection indicator 202and a weight sensing means and electronics module not shown butpreviously described FIG. 5.

Variations shown in the drawing include a food data reset button 207,and a water reset button 208, the reset buttons just described used tocorrelate the adding of food or water into the container with the pet'sfood or water consumption record. More specifically, the food resetbutton would be depressed when adding food, and the water reset buttonwould be depressed when adding water. Further, the present variationprovides for a reusable food container 113, and a reusable watercontainer 114, the reusable food and water containers being of a knowntare weight, and the tare weight being recorded on a reusable foodcontainer identification chip 114 and reusable water containeridentification chip not shown. The reusable food container 113 providesfor a food compartment 106 and a water compartment 107, and the reusablewater container provides for a large water compartment 112.

The reusable food and water containers may be nestable as previouslydescribed with the single-portion food and water containers, but nestingis not required for use independently.

A multi-meal food package 116 contains a sufficient volume of pet foodto fill the food bowl with a single food portion each day for aplurality of days. The nutritional values of the food components, forinstance, caloric content by weight, moisture content by weight orpercentage of food weight, are known to the manufacturer of the food,and such data related to the nutrition details of the food are recordedon a readable multi-meal package identification chip 117, the chip beingreadable by a reader not shown, but previously described as an integralcomponent of the wireless food serving appliance.

FIG. 9B is an exemplary diagram illustrating a chart listing partialinformation recorded on a wireless pet feeding appliance. Morespecifically, a passive RFID data chart 329 lists the passive datapassed by RFID chips to the wireless food serving appliance, anddirectly or indirectly to a network server. The food nutritional contentby weight information is used to determine the correct food portion fora particular pet, the mealtime caloric requirements being communicatedfrom a network server to the electronics module of the wireless servingappliance not shown, but previously described, as a means of determiningwhen the proper portion of food has been filled into the foodcompartment. When the known proper portion of food with a knownnutrition content is poured into the bowl, a visual and/or audibleindication is presented to the pet owner as an alert to stop pouringfood into the food compartment.

FIG. 10 is an exemplary block diagram illustrating major components ofone variation of a pet nutrition and health management system. In thevariation, a plurality of products and technologies interact as a meansto preferably monitor, collect, process, send, store and analyze datarelated to pet food and water consumption.

In the drawing a food package that may be opened and closed multipletimes is manufactured 323 at a pet food manufacturing facility, thenutritional and caloric content of the pet food being of certainmeasurements so as to constitute a predefined number of complete andbalanced individual meal portions preferably for one specificallyidentified animal or a plurality of animals of substantially similarphysiological characteristics.

Prior to manufacturing, the food manufacturer 323 received petcharacteristics and corresponding daily food requirements from anetworked server 302, the server being further networked to amanufactured wireless food serving appliance 301 preferably located inthe pet's domicile, at least one networked wireless device 303 operableby the pet's owner or custodian and/or located in the pet's domicile,pet wearable devices such as a pet collar 305 providing for datacollection related to activity and water consumption, and a portalproviding third party data access 304, preferably via a WEB application,for querying and/or retrieving pet history information by the pet'sowner or veterinarian.

In some instances it may be preferable for the serving appliance and petwearable devices 301, 305 to be in direct communication with thenetwork, the devices having unique identifications that correlate to theunique identification of the pet for which they are collecting data. Onthe other hand, it may be preferable for the serving appliance and/orpet wearable devices 301, 305 to be in direct communication with a petowner's wireless device, for instance, a smartphone, that received datafrom various in-home and pet wearable devices, federated the data, andfurther communicates the data to the network. The various embodimentsherein is not intended to limit access protocol or sequence of anydevice upon the network so long as all of the preferred data related tothe pet, its activity, food and water consumption are communicated,preferably at approximately 24 hour intervals, to the pet's personallyidentifiable record stored on the server.

In-home wireless devices 303 preferably comprise interactivecommunication devices such as smartphones or tablets, but may alsoinclude auxiliary data collection devices such as a wireless floor scalefor weighing the pet, additional metered water sources, or metered waterbottles.

FIG. 11 is an exemplary diagram illustrating a flow chart of a preferredsequence of managing a pet's nutrition and health.

A pet owner puts a new pet on a nutrition program 307 by first examiningand entering into a server a new pet profile 308 using commonly usedphysiological characteristics. Based on the owner-input data, the serveranalysis determines a proper meal portion, and multiplies that by thenumber of meals that will be filled into a re-closable multi-portionbulk package 323.

Upon receiving delivery of the multi-portion food package, a pet ownerprepares the wireless food serving appliance for a new meal by placingthe reusable food container on the appliance, resetting the scale forfood, then opening and transferring food from the multi-portion foodpackage to the food compartment 324.

The owner then prepares to add water 325 by pressing the water button onthe appliance to zero the water data, then adds water into the watercompartment.

The appliance then records the food and water data 327 prior to thestart of the meal.

After the pet completes the meal, the reusable food bowl is removed 327,and the reusable water bowl with the large water compartment is placedinto the appliance. The owner re-zeros the water data by depressing thewater button one time before filling with water.

In preparation for the subsequent pet next full meal, the owner removesthe reusable water container from the appliance, removal thereby causingthe end weight data to be recorded for the pet's record 328.

The wireless food serving appliance then communicates directly orindirectly all of the passively and actively collected food and waterdata to a network server for the daily run time schedule 322.

Further, all food and water consumption data collected from sourcesother than the wireless food serving appliance are communicated to thenetwork server to be added to the pet's pet's personalized log 316.

The pet's nutrition and health records may then be accessed by a petowner or veterinarian 317, preferably via push notifications to awireless device, or via a WEB portal.

An analytics engine on the network server analyzed daily pet intakedata, performs a comparative analysis of the current data to bothhistorical data, and more importantly future predicted data, andautomatically makes any food portion or nutrition adjustments to thepet's daily portions 318, and communicates that information back to theserver accessible to a food manufacturer. The food manufacturer willappropriately modify the portion details for the next scheduledproduction of a multi-portion bulk food package 323.

FIG. 12 is an exemplary diagram illustrating a chart of one set ofprocesses and triggered mathematical computations representative ofsoftware algorithms used to manage a pet's nutrition and health.

In the drawing, certain symbols are used to represent various measuredcomponents as described in the following list:

a) (Tf)=tare weight of a reusable food serving container

b) (Gf)=the weight of a known food at the time the appliance recognizesthat the correct portion weight for a specific pet has been filled intothe food serving container

c) (NfW)=net measurement of the water content of the food

d) (NfS)=net measurement of the solid portion of the food

Other symbols containing (NW) and (Subtotal Water) with a suffix referto Net Weight, or Subtotal Water measurements at different stages of thedaily food and water consumption data consolidation.

So as not to be overly burdensome defining every line item data pointand describe it's contribution to the daily analysis of a pet's food andwater consumption, those skilled in the art will understand theprogression of solving various formulae to determine values for certainformula variables.

As previously discussed, it is important to establish the availablewater volume presented to a pet at the start of a recording period, thewater comprising clear water and the moisture content of the food. In avariation of the pre-meal algorithm 404, the tare weight of the foodcontainer and the known amount of food portion are used as the first twomeasure constants. Weight measurements are made periodically withmultiple occurrences of adding water, the formula resulting in anin-meal algorithm 405 that computes the total water consumed while thefood and water container are docked in the wireless food servingappliance.

Since water must be made available to the pet throughout the day andfully between sequential mealtimes, a post meal water container 406 isplaced into the wireless serving appliance, the container comprising anRFID chip with tare weight data that is read by the chip reader on theappliance. Water is then added one or more times throughout themeasurement period, the formulae shown being used to compute thecumulative water consumption from the large water container. The postmeal water algorithm 407 results in a constant water consumption valuethat is communicated to the network server.

It is also important to consolidate water consumption values from othermetered and unmetered water sources 408 as previously described.

Finally, a total daily water algorithm 409 is used to determine thetotal water consumed by each pet, subsequently recording the totalcumulative water consumption in the pet's profile log.

Unless otherwise defined, all technical and scientific terms used hereinhave the same meaning as commonly understood by one of ordinary skill inthe art to which this invention belongs. Although methods and materialssimilar to or equivalent to those described herein can be used in thepractice or testing of the animal nutrition system and method, suitablemethods and materials are described above. All publications, patentapplications, patents, and other references mentioned herein areincorporated by reference in their entirety to the extent allowed byapplicable law and regulations. The animal nutrition system and methodmay be embodied in other specific forms without departing from thespirit or essential attributes thereof, and it is therefore desired thatthe present embodiment be considered in all respects as illustrative andnot restrictive. Any headings utilized within the description are forconvenience only and have no legal or limiting effect.

What is claimed is:
 1. A pet feeding system, comprising: a foodcontainer storing a pet food, wherein the food container includes afloor and a sidewall extending upwardly from the floor defining aninterior of the food container; a package identification chip includingfood container data for the pet food stored in the food container; and afood serving appliance configured to removably receive the foodcontainer; wherein the food serving appliance includes a scalepositioned to weigh the food container periodically to generate weightdata; a chip reader that communicates with the package identificationchip to receive the food container data from the package identificationchip, wherein the food container data is combined with the weight datato determine the nutritional consumption of a pet.
 2. The pet feedingsystem of claim 1, wherein the food container includes a foodcompartment and a water compartment.
 3. The pet feeding system of claim2, wherein the water compartment is initially empty and filled by anowner of the pet.
 4. The pet feeding system of claim 2, wherein thewater compartment is smaller than the food compartment.
 5. The petfeeding system of claim 1, wherein the pet food is comprised of kibble.6. The pet feeding system of claim 1, wherein the food container isdisposable.
 7. The pet feeding system of claim 1, wherein the foodcontainer includes a sealed food container closure to seal the interiorof the food container, wherein the sealed food container closure isconfigured to be removed from the food container to expose the interiorof the food container and allow consumption of the pet food.
 8. The petfeeding system of claim 1, wherein the scale is positioned within arecessed portion of the food serving appliance and supports the foodcontainer positioned within the food serving appliance.
 9. The petfeeding system of claim 1, wherein the food container data includes aninitial weight of the food container with the pet food without wateradded.
 10. The pet feeding system of claim 9, wherein the food containerdata includes identification of the pet food within the food container.11. The pet feeding system of claim 9, wherein the food container dataincludes nutritional information about the pet food.
 12. The pet feedingsystem of claim 1, wherein the food container data includes a weight ofthe food container without the pet food and a weight of the pet food.13. The pet feeding system of claim 12, wherein the food container dataincludes a weight of the pet food.
 14. The pet feeding system of claim12, wherein the scale measures an initial measured weight of the foodcontainer with the pet food and a volume of water added to the foodcontainer, wherein the food serving appliance records how much water isconsumed by the pet by subtracting from the initial total weight a finalmeasured weight and the weight of the food container without pet food.15. The pet feeding system of claim 14, wherein the food servingappliance determines if the daily water consumption of the pet isoutside an expected consumption range and if the daily water consumptionof the pet is outside the expected consumption range the food servingappliance notifies the pet owner.
 16. The pet feeding system of claim 1,including a water container having a recessed portion, wherein therecessed portion of the water container removably receives the foodcontainer.
 17. The pet feeding system of claim 1, wherein the packageidentification chip is attached to an exterior or the interior of thefood container.
 18. The pet feeding system of claim 1, wherein thepackage identification chip is integrally incorporated into the foodcontainer.
 19. A pet feeding system, comprising: a food package storinga pet food, wherein the food package includes a floor and a sidewallextending upwardly from the floor defining an interior of the foodpackage; a package identification chip attached to the food package,wherein the package identification chip includes a food package data forthe pet food stored in the food package; and a food serving applianceincluding a food bowl configured to removably receive the pet food fromthe food package; wherein the food serving appliance includes a scalepositioned to weigh the pet food periodically to generate weight data; achip reader that communicates with the package identification chip toreceive the food package data from the package identification chip,wherein the food package data is combined with the weight data todetermine the nutritional consumption of a pet.
 20. The pet feedingsystem of claim 19, wherein the food package includes a volume of thepet food sufficient to fill the food bowl with a single food portioneach day for a plurality of days.